A Systemized View of Superluminal Wave Propagation

Author

Withayachumnankul, Withawat ; Fischer, Bernd M. ; Ferguson, Bradley ; Davis, Bruce R. ; Abbott, Derek

Author_Institution

Sch. of Electr. & Electron. Eng., Univ. of Adelaide, Adelaide, SA, Australia

Volume

98

Issue

10

fYear

2010

Firstpage

1775

Lastpage

1786

Abstract

This paper reviews earlier studies on superluminal wave propagation in anomalously dispersive media that have been carried out in the electronic, microwave, and optical regimes. Those studies are relevant to observation of modulated Gaussian pulses transmitted through various media at speeds apparently faster than c without distortion. This paper also presents the condition for superluminal propagation that is established based on the magnitude-phase relation of a causal and minimum-phase filter. Since the condition is modeled on the basis of filter theory, it is applicable to all types of media. A terahertz experiment with a periodic bandgap structure is also included to illustrate superluminal propagation.

Keywords

Gaussian distribution; microwave photonics; optical filters; photonic band gap; photonic crystals; dispersive media; filter theory; magnitude-phase relation; minimum-phase filter; modulated Gaussian pulse transmission; periodic bandgap structure; superluminal wave propagation; terahertz experiment; Dispersion; Filtering theory; Microwave propagation; Optical distortion; Optical filters; Optical modulation; Optical propagation; Optical pulses; Pulse modulation; Submillimeter wave filters; Filter theory; photonic crystals; pulse shaping; superluminal propagation; terahertz radiation;

fLanguage

English

Journal_Title

Proceedings of the IEEE

Publisher

ieee

ISSN

0018-9219

Type

jour

DOI

10.1109/JPROC.2010.2052910

Filename

5535097